JP2021036383A - Radio communication system - Google Patents

Abstract

To prevent expansion of a damage due to falling of a resident.SOLUTION: A radio communication system 100 comprises: a falling detection part (radio terminal 110) which detects falling of a resident 10; and a gas cutoff part (gas meter 118) which cuts off supply of gas to a house 12 of the resident when the falling detection part detects the falling. By such configuration, even when the resident 10 falls while using the gas and falls into a situation that the resident cannot operate a gas appliance, the supply of the gas is automatically cut off, and it becomes possible to prevent a secondary disaster such as a fire and a fire burn.SELECTED DRAWING: Figure 1

Description

The present invention relates to a wireless communication system that detects a resident's fall.

If a sick person or an elderly person with some kind of illness falls, it is desirable to be rescued promptly. Therefore, there is known a technique in which when a sick person or an old person falls, a rescuer located in a remote place is notified that the sick person or the old person has fallen (for example, Patent Document 1).

Japanese Unexamined Patent Publication No. 2014-229199

With the technique described in Patent Document 1 above, when a resident such as a sick person or an elderly person falls in the house, the rescuer can grasp that the resident has fallen, but can also grasp the situation of the fall. Can not. For example, if a resident falls while cooking, the gas required for cooking may continue to be used, which may lead to a secondary disaster such as a fire or burns.

In view of such a problem, an object of the present invention is to provide a wireless communication system capable of preventing the spread of damage caused by a resident's fall.

In order to solve the above problems, the wireless communication system of the present invention has a fall detection unit that detects a resident's fall and a gas that cuts off the supply of gas to the resident's house when the fall detection unit detects a fall. It is provided with a blocking unit.

According to the present invention, it is possible to prevent the spread of damage due to the fall of the resident.

It is explanatory drawing which showed the schematic structure of the wireless communication system. It is a functional block diagram which showed the schematic structure of a wireless terminal. It is a functional block diagram which showed the schematic structure of the center device. It is a functional block diagram which showed the schematic structure of a gas meter. It is a sequence diagram which showed the flow of the gas shutoff processing by a wireless communication system.

Preferred embodiments of the present invention will be described in detail below with reference to the accompanying drawings. The dimensions, materials, and other specific numerical values shown in such an embodiment are merely examples for facilitating the understanding of the invention, and do not limit the present invention unless otherwise specified. In the present specification and drawings, elements having substantially the same function and configuration are designated by the same reference numerals to omit duplicate description, and elements not directly related to the present invention are not shown. To do.

(Wireless communication system 100)
FIG. 1 is an explanatory diagram showing a schematic configuration of a wireless communication system 100. As shown in FIG. 1, the wireless communication system 100 includes a wireless terminal 110, a gateway device 112, a network 114, a center device 116, and a gas meter 118. Hereinafter, the functions of each device will be described, and then the flow of processing based on each device will be described in detail.

<Wireless terminal 110>
FIG. 2 is a functional block diagram showing a schematic configuration of the wireless terminal 110. The wireless terminal 110 is a movable (portable) device, which is formed so that a person (here, a resident 10) can wear it, and detects a fall of the resident 10. Further, the wireless terminal 110 includes a wireless communication unit 130, a fall sensor 132, and a wireless control unit 134, and uses, for example, a battery as a drive source.

The wireless communication unit 130 establishes wireless communication with the gateway device 112. The fall sensor 132 detects a person's fall by, for example, responding to a change in acceleration, a change in atmospheric pressure, or a change in inclination angle, for example, by continuing a stationary state for a predetermined period after a sudden change in acceleration. Since various techniques such as Japanese Patent Application Laid-Open No. 2014-229199 have been proposed for the fall detection of such a person, detailed description thereof will be omitted here.

The wireless control unit 134 is composed of a microcomputer including a CPU (Central Processing Unit), a DSP (Digital Signal Processor), a ROM in which programs and the like are stored, a RAM as a work area, and the like, and controls the entire wireless terminal 110. Further, when the wireless control unit 134 acquires the detection signal indicating that the resident 10 has fallen from the fall sensor 132, the wireless control unit 134 transmits the fall information indicating that at least the resident 10 has fallen to the center device 116 through the wireless communication unit 130. To do. In addition to the fact that the resident 10 has fallen, the fall information may include a fall mode, a fall time, and the like. Here, the fall sensor 132 and the wireless control unit 134 function as a fall detection unit that detects the fall of the resident 10.

Although the fall sensor 132 and the wireless control unit 134 have been described here as the fall detection unit, it is sufficient if the fall of the resident 10 can be detected. For example, image processing of a surveillance camera for monitoring the inside of the house or resident It is also possible to apply a biosensor or the like that is attached to the resident 10 and acquires biometric information such as the pulse and cardiac current of the resident 10.

<Gateway device 112>
The gateway device 112 is installed corresponding to the resident's house 12 in which the resident 10 lives, and establishes wired or wireless communication with the wireless terminal 110 and the gas meter 118. In addition, the gateway device 112 can also establish communication with the center device 116 through the network 114.

<Network 114>
The network 114 is composed of a communication network including a mobile phone network, a PHS (Personal Handyphone System) network, etc., or a WiFi, Bluetooth (registered trademark), and NFC (Near Field Communication) connected to such a communication network. It serves as a communication path between the gateway device 112 and the center device 116.

<Center device 116>
FIG. 3 is a functional block diagram showing a schematic configuration of the center device 116. The center device 116 is a device belonging to the administrator side of the wireless communication system 100 such as a gas company or an electric power company. Further, the center device 116 includes a center communication unit 140, a center storage unit 142, and a center control unit 144.

The center communication unit 140 establishes communication with the gateway device 112 through the network 114. The center storage unit 142 is composed of a ROM, a RAM, a flash memory, an HDD, and the like, and stores various data used in the center device 116. The center device 116 holds a management table in which at least a wireless terminal 110 worn by an arbitrary person (resident 10) and a gas meter 118 of the resident's house 12 of that person are associated with each other.

The center control unit 144 is composed of a microcomputer including a CPU, a DSP, a ROM in which a program and the like are stored, a RAM as a work area, and the like, and controls the entire center device 116. Further, when the center control unit 144 receives the fall information indicating that the resident 10 has fallen from the wireless terminal 110, the center control unit 144 refers to the management table held in the center storage unit 142 to the gas meter 118 corresponding to the wireless terminal 110. , Send fall information.

<Gas meter 118>
FIG. 4 is a functional block diagram showing a schematic configuration of the gas meter 118. The gas meter (smart meter) 118 is installed for each consumer, for example, and at least uses gas or electric power when the gas operator supplies gas to the consumer or the electric power operator supplies electric power to the consumer. It is a device that automatically reads the amount. The gas meter 118 includes a shutoff valve 150, a pressure sensor 152, a flow rate sensor 154, a display unit 156, and a meter control unit 158. In FIG. 4, the flow of the control signal is indicated by a solid arrow, and the flow of the flammable gas is indicated by a broken line arrow.

The shutoff valve 150 includes a valve, controls the opening degree of the valve, and controls the flow rate of the flammable gas flowing through the gas flow path 148. Therefore, the shutoff valve 150 can shut off the flow of flammable gas by completely closing the valve. The pressure sensor 152 is provided downstream of the shutoff valve 150 and detects the pressure of the flammable gas.

The flow rate sensor 154 is composed of ultrasonic vibrators 154a and 154b and a propagation velocity derivation unit 154c. The ultrasonic vibrators 154a and 154b are arranged at predetermined positions on the upstream side surface and the downstream side side surface of the gas flow path 148 downstream of the shutoff valve 150 and upstream of the pressure sensor 152, for example, with sound waves of 20 kHz or higher. It functions as a transmitter and receiver of certain ultrasonic waves. The propagation velocity derivation unit 154c detects the propagation time of the ultrasonic waves propagating between the ultrasonic vibrators 154a and 154b via the flammable gas, and derives the flow rate of the flammable gas based on the propagation time.

The display unit 156 is composed of a liquid crystal display, an organic EL (Electro Luminescence) display, and the like, and is used to notify an integrated value of the supply amount (usage amount) of the flammable gas and an abnormality such as a leak of the flammable gas. ..

The meter control unit 158 is composed of a microcomputer including a CPU, a DSP, a ROM in which a program and the like are stored, a RAM as a work area, and the like, and controls the entire gas meter 118. Further, the meter control unit 158 functions as a gas shutoff unit 160 in cooperation with the program. The gas shutoff unit 160 shuts off or displays the shutoff valve 150 when the pressure of the flammable gas detected by the pressure sensor 152 or the flow rate of the flammable gas derived by the flow rate sensor 154 meets a predetermined shutoff condition. A warning to that effect is given through the unit 156 and the alarm speaker. When the gas shutoff unit 160 receives the fall information from the center device 116, the gas shutoff unit 160 closes the shutoff valve 150 to shut off the gas supply to the resident's house 12.

Here, an example in which the gas meter 118 and the gateway device 112 are formed separately has been described, but the gas meter 118 automatically reads the amount of gas used from the gas operator to the resident 10. If it is a meter, the gateway device 112 may be built in the gas meter 118, and the gas meter 118 and the gateway device 112 may be integrally formed.

FIG. 5 is a sequence diagram showing a flow of gas shutoff processing by the wireless communication system 100. Here, for convenience of explanation, the flow of information between the wireless terminal 110, the center device 116, and the gas meter 118 will be described, and detailed information transmission processing of the gateway device 112 and the network 114, which are the routes thereof, will be omitted.

For example, a resident 10 who is a sick person, an elderly person, or the like wears a wireless terminal 110 in the resident's house 12. Further, it is assumed that the resident 10 is cooking using gas.

Under such a situation, when the resident 10 falls, the fall sensor 132 of the wireless terminal 110 detects the fall of the resident 10 (S200), and the wireless control unit 134 of the wireless terminal 110 centers through the wireless communication unit 130. The fall information is transmitted to the device 116 (S202).

When the center control unit 144 of the center device 116 receives the fall information, it refers to the management table held in the center storage unit 142 (S204) and transmits the fall information to the gas meter 118 corresponding to the wireless terminal 110 (S206). ..

Upon receiving the fall information from the center device 116, the gas shutoff unit 160 of the gas meter 118 closes the shutoff valve 150 to shut off the gas supply to the resident's house 12 (S208).

In this way, even if the resident 10 falls while using gas and falls into a situation where the gas equipment cannot be operated, the gas supply is automatically cut off to prevent secondary disasters such as fire and burns. It becomes possible.

Although the preferred embodiment of the present invention has been described above with reference to the accompanying drawings, it goes without saying that the present invention is not limited to such an embodiment. It is clear that a person skilled in the art can come up with various modifications or modifications within the scope of the claims, which naturally belong to the technical scope of the present invention. Understood.

For example, in the above-described embodiment, the center device 116 has been described with reference to an example in which the fall information is once acquired from the wireless terminal 110 and the fall information is transmitted to the gas meter 118. However, not limited to such a case, if the wireless terminal 110 recognizes the gas meter 118 as a transmission destination, the fall information can be directly transmitted from the wireless terminal 110 to the gas meter 118.

Further, in the above-described embodiment, each functional unit, for example, a fall detection unit is included in the wireless terminal 110, and the gas shutoff unit 160 is included in the gas meter 118. The functional unit may be included in any device of the wireless communication system 100 as long as it fulfills its function.

Further, a program that causes the computer to function as any of the wireless terminal 110, the center device 116, and the gas meter 118, and a computer-readable flexible disk, magneto-optical disk, ROM, CD, DVD, BD, etc. that record the program. Storage medium is also provided. Here, the program refers to a data processing means described in an arbitrary language or description method.

The present invention can be used in a wireless communication system that detects a resident's fall.

100 Wireless communication system 110 Wireless terminal 116 Center device 118 Gas meter 132 Tumble sensor 134 Wireless control unit 160 Gas cutoff unit

Claims (1)

A fall detection unit that detects a resident's fall,
When the fall detection unit detects a fall, a gas cutoff unit that cuts off the gas supply to the resident's house and
A wireless communication system including.

Images